Immunotherapy

A type of cancer therapy that uses substances to stimulate or suppress the immune system to help the body fight cancer

Development of markers to predict response to immunotherapy in NSCLC

Career Development Award
Jeffrey Thompson, MD
University of Pennsylvania
Philadelphia
PA

Currently, three immune checkpoint inhibitors are approved by the FDA for the treatment of a subset of advanced-stage NSCLC. However, immunotherapy is a costly treatment regimen and comes with a unique side effect profile because of the inhibitors’ ability to cause inflammatory tissue damage. At present, the PD-L1 protein is used as a biomarker to predict which patients may respond to immunotherapy. Unfortunately, presence or absence of PD-L1 protein may not be an accurate predictor of response. Dr. Jeffrey Thompson is studying how we can develop more accurate biomarker signatures that may not only predict response to immunotherapy but may also determine which patients will develop treatment-related side effects. He will develop a novel blood-based liquid biopsy approach that will enable doctors to predict which patients will respond to immunotherapy drugs.

Immunometabolic T cell profiling as a prognostic liquid biopsy in NSCLC

Career Development Award
Kellie Smith, PhD
Johns Hopkins School of Medicine
Baltimore
MD

Checkpoint inhibitors, a type of immunotherapy, are now available in the first-line and second-line settings for certain subsets of NSCLC patients. Furthermore, the U.S. Food and Drug Administration recently approved an immunotherapy-combination treatment regimen for the treatment of a subset of advanced-stage NSCLC patients. While we are making progress in combining and sequencing immunotherapy with other conventional treatments, it is still unclear which patients will respond to these combinations. Dr. Kellie Smith’s laboratory is studying immune cells in blood samples from patients who have received the recently approved combination therapy. She postulates that immune cells from patients receiving the combination behave very differently from immune cells from patients who have received single-agent immunotherapy. Dr. Smith’s team will identify and exploit these differences to develop a blood test that will help predict which patients may benefit from combination therapies, thereby sparing patients the exposure to ineffective treatments.

Targeting the Complement Pathway in ALK Positive Lung Cancer

Partner Awards
This grant was funded by ALK Positive
Raphael Nemenoff, PhD
University of Colorado Denver
Aurora
CO

Overcoming Innate Immune Resistance in ALK-Rearranged Lung Cancer

Partner Awards
This grant was funded by ALK Positive
Justin Gainor, MD
Massachusetts General Hospital
Boston
MA

Characterization of Anti-ALK Immunologic Responses in ALK-Positive NSCLC

Partner Awards
This grant was funded by ALK Positive
Mark Awad, MD, PhD
Dana-Farber Cancer Institute
Boston
MA

Intercept Lung Cancer Through Immune, Imaging & Molecular Evaluation-InTIME

SU2C-LUNGevity-ALA LC Interception Award
Grant title (if any)
SU2C-LUNGevity Foundation-American Lung Association Lung Cancer Interception Dream Team
This grant was co-funded by Stand Up to Cancer, LUNGevity, and the American Lung Association
Avrum Spira, MD, MSc
Boston University
Boston
MA
Steven Dubinett, MD
UCLA
Los Angeles
CA
Julie Brahmer, MD
Johns Hopkins Kimmel Cancer Center
Baltimore
MD
Sam Gambhir, MD, PhD
Stanford University
Palo Alto
CA
Matthew Meyerson, MD, PhD
Harvard/Dana-Farber Cancer Institute
Boston
MA
Charles Swanton, PhD
Francis Crick Institute
London, England

The SU2C-LUNGevity Foundation-American Lung Association Lung Cancer Interception Dream Team, led by LUNGevity SAB member Dr. Avrum Spira, is developing a combination of diagnostic tools, such as non-invasive nasal swabs, blood tests, and radiological imaging, to confirm whether lung abnormalities found on chest imaging are benign lung disease or lung cancer.

Dynamics of neoantigen landscape during immunotherapy in lung cancer

Career Development Award
This grant was funded in part by the Schmidt Legacy Foundation
Valsamo Anagnostou, MD, PhD
Johns Hopkins University
Baltimore
MD

The lung cancer treatment landscape is rapidly evolving with the advent of immunotherapy. Checkpoint inhibitors, a class of immune-targeted agents, are now available in both the first-line and second-line settings for certain subsets of lung cancer patients. However, the fraction of patients achieving a durable response remains low and, even among patients who respond, the majority develop resistance. Dr. Valsamo Anagnostou is using a comprehensive approach employing genome-wide and functional immune analyses to identify mechanisms of resistance to immune checkpoint blockade. In addition, she is developing a blood-based molecular assay utilizing serial blood samples of lung cancer patients to more accurately predict response and resistance to these therapies.

Identification of predictive markers of toxicity to immunotherapy

Career Development Award
This grant was funded in part by the Schmidt Legacy Foundation
Mehmet Altan, MD
The University of Texas MD Anderson Cancer Center
Houston
TX

Side effects associated with immunotherapy (immune-related adverse events or irAEs) with checkpoint inhibitors are different from those seen in other treatment approaches, such as chemotherapy, radiation therapy, and targeted therapies. Their onset is unpredictable, so irAEs require different side-effect management strategies. Dr. Altan is studying how we can predict which patients will develop irAEs so that the best therapy can be selected and symptom management can be proactive.

Axl as a target to reverse EMT, treatment resistance and immunosuppression

Targeted Therapeutics Research Award
Lauren Averett Byers, MD
MD Anderson Cancer Center
Houston
TX
Don Gibbons, Jr., MD, PhD
MD Anderson Cancer Center
Houston
TX

Drs. Byers and Gibbons have discovered that lung cancer cells acquire the ability to hide from the immune system during epithelial-to-mesenchymal transition—a process through which cancer cells develop the ability to spread to other parts of the body (metastasis). The LUNGevity award will help Drs. Byers and Gibbons study the effect of a new drug that can reverse the EMT process and make lung cancer cells more visible to the immune system.

Genetic regulation and therapeutic correction of immune escape in lung cancer

Targeted Therapeutics Research Award
Funded equally by LUNGevity Foundation and the American Lung Association
George C. Prendergast, PhD
Lankenau Institute for Medical Research
Wynnewood
PA

The IDO protein stops immune cells from recognizing cancer cells and mounting an attack against the cancer. Dr. Prendergast is determining how the IDO protein works in non-small cell lung cancer cells that have mutations in the KRAS gene. He is also testing new compounds that can inhibit IDO in non-small cell lung cancer.